Genomic Applications for Crop Breeding: Abiotic Stress, Quality and Yield Improvement is the second of two volumes looking at the latest advances in genomic applications to crop breeding. This volume focuses on advances improving crop resistance to abiotic stresses such as extreme heat, drought, flooding as well as advances made in quality and yield improvement. Chapters examine advances in such key crops as rice, maize, and sugarcane, among others. Genomic Applications for Crop Breeding: Abiotic Stress, Quality and Yield Improvement complements the earlier volume on biotic stressors and will…mehr
Genomic Applications for Crop Breeding: Abiotic Stress, Quality and Yield Improvement is the second of two volumes looking at the latest advances in genomic applications to crop breeding. This volume focuses on advances improving crop resistance to abiotic stresses such as extreme heat, drought, flooding as well as advances made in quality and yield improvement. Chapters examine advances in such key crops as rice, maize, and sugarcane, among others. Genomic Applications for Crop Breeding: Abiotic Stress, Quality and Yield Improvement complements the earlier volume on biotic stressors and will be an essential purchase for those interested in crop science and food production.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Rajeev K. Varshney is a Principal Scientist (Applied Genomics), Director, Centre of Excellence in Genomics and Research Programme Director- Grain Legumes at the International Crops Research Institute for the Semi-Arid Tropics (ICRISAT) in Hyderabad (India), and an adjunct Professor at the University of Western Australia in Perth, Australia. Roberto Tuberosa is a Professor in Biotechnology Applied to Plant Breeding in the Department of Agricultural Sciences at the University of Bologna, Italy.
Inhaltsangabe
Ch. 1: Introduction Ch. 2: Applying Genomics Tools for Breeding Submergence Tolerance in Rice Ch. 3: Genomics Applications to Salinity Tolerance Breeding in Rice Ch. 4: Marker-assisted introgression of major QTLs for grain yield under drought in rice Ch 5: Molecular breeding for phosphorus-efficient rice Ch. 6: Aluminum tolerance in sorghum/maize Ch. 7: Freezing tolerance in Triticeae Ch. 8: Molecular breeding for stay-green: progress and challenges in sorghum Ch. 9: Genetic improvement of grain quality in japonica rice Ch. 10: Protein quality in maize Ch. 11: Marker assisted backcrossing selection for high O/L ratio in cultivated peanut Ch. 12: Genomics-assisted breeding for tomato fruit quality in the next-generation omics age Ch. 13: Improvement of yield per se in Sugarcane
Ch. 1: Introduction Ch. 2: Applying Genomics Tools for Breeding Submergence Tolerance in Rice Ch. 3: Genomics Applications to Salinity Tolerance Breeding in Rice Ch. 4: Marker-assisted introgression of major QTLs for grain yield under drought in rice Ch 5: Molecular breeding for phosphorus-efficient rice Ch. 6: Aluminum tolerance in sorghum/maize Ch. 7: Freezing tolerance in Triticeae Ch. 8: Molecular breeding for stay-green: progress and challenges in sorghum Ch. 9: Genetic improvement of grain quality in japonica rice Ch. 10: Protein quality in maize Ch. 11: Marker assisted backcrossing selection for high O/L ratio in cultivated peanut Ch. 12: Genomics-assisted breeding for tomato fruit quality in the next-generation omics age Ch. 13: Improvement of yield per se in Sugarcane
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